#ifndef EX02_MC_APPLICATION_H
#define EX02_MC_APPLICATION_H

//------------------------------------------------
// The Virtual Monte Carlo examples
// Copyright (C) 2007 - 2014 Ivana Hrivnacova
// All rights reserved.
//
// For the licensing terms see geant4_vmc/LICENSE.
// Contact: root-vmc@cern.ch
//-------------------------------------------------

/// \file Ex02MCApplication.h
/// \brief Definition of the Ex02MCApplication class
///
/// Geant4 ExampleN02 adapted to Virtual Monte Carlo
///
/// \author I. Hrivnacova; IPN, Orsay

#include <TVirtualMCApplication.h>

#include "Ex02DetectorConstruction.h"
#include "Ex02TrackerSD.h"

#include <TMCRootManager.h>

class Ex02MCStack;

class TVirtualMagField;

/// \ingroup E02
/// \brief Implementation of the TVirtualMCApplication
///
/// \date 21/04/2002
/// \author I. Hrivnacova; IPN, Orsay

class Ex02MCApplication : public TVirtualMCApplication
{
 public:
  Ex02MCApplication(const char* name, const char* title);
  Ex02MCApplication();
  virtual ~Ex02MCApplication();

  // methods
  void InitMC(const char* setup);
  void RunMC(Int_t nofEvents);
  void FinishRun();

  virtual TVirtualMCApplication* CloneForWorker() const;
  virtual void InitForWorker() const;
  virtual void FinishWorkerRun() const;

  virtual void ConstructGeometry();
  virtual void InitGeometry();
  virtual void GeneratePrimaries();
  virtual void BeginEvent();
  virtual void BeginPrimary();
  virtual void PreTrack();
  virtual void Stepping();
  virtual void PostTrack();
  virtual void FinishPrimary();
  virtual void FinishEvent();

  void ReadEvent(Int_t i);

  // method for tests
  void SetOldGeometry(Bool_t oldGeometry = kTRUE);

 private:
  // methods
  Ex02MCApplication(const Ex02MCApplication& origin);
  void RegisterStack() const;

  // data members
  mutable TMCRootManager* fRootManager;      //!< Root manager
  Ex02MCStack* fStack;                       ///< VMC stack
  Ex02DetectorConstruction fDetConstruction; ///< Dector construction
  Ex02TrackerSD* fTrackerSD;                 ///< Tracker SD
  TVirtualMagField* fMagField;               ///< Magnetic field
  Bool_t fOldGeometry;                       ///< Option for geometry definition

  ClassDef(Ex02MCApplication, 1) // Interface to MonteCarlo application
};

// inline functions

/// Switch on/off the old geometry definition  (via VMC functions)
/// \param oldGeometry  If true, geometry definition via VMC functions
inline void Ex02MCApplication::SetOldGeometry(Bool_t oldGeometry)
{
  fOldGeometry = oldGeometry;
}

#endif // EX02_MC_APPLICATION_H
